The answer will be CO2 + H2O + energy (option c).
Explanation: During aerobic respiration, glucose is splits into carbon dioxide, water & ATP (energy). The chemical equation of aerobic respiration is shown below-
C6H12O6 + 6O2
6CO2 + 6H2O + ATP (Energy)
Thus, correct answer will be option c.
Glycolysis, or the splitting of glucose, produces: O a. NH2 + COOH b. NaCl + H2O...
The reaction of NaHCO3 and HCl produces NaCl, H2O and CO2. The balanced equation is: NaHCO3 + HCl = NaCl + H2O + CO2 You combine 5.0 g of NaHCO3 and 5.0 g of HCl. Determine the limiting reagent. Determine the amount of NaCl formed in the reaction based on these quantities of reactants. How much of the excess reactant remains? Thank you in advance!
In a calorimeter, the combustion of 1 mole of glucose produces 690 kcal. 1. What percentage of ATP energy is produced when 3 moles of glucose react in glycolysis? (7.3 kcal/mole ATP) 2. What percentage of ATP energy is produced when 3 moles of glucose are oxidized into acetyl CoA? (7.3 kcal/mole ATP) 3. What percentage of ATP energy is produced when 3 moles of glucose react in the citric acid cycle? (7.3 kcal/mole ATP) 4. What percentage of ATP...
1. During the aerobic metabolism of glucose, glucose is a. Reduced to form water b. Oxidized to form water c. Reduced to form CO2 d. Oxidized to form CO2 2. Which of the following describes the equation: FAD + XH à FADH2 + X. a. FAD is reduced to FADH2 b. It is a coupled reduction - oxidation reaction c. XH, is oxidized to X d. All of the above 3. Which of the following is FALSE about glycolysis? a....
please help answer both of these
Splitting with aldolase step in glycolysis Select one: a. All the reactions b. Glucose to Fructose Diphosphate c. Glyceraldehyde Phosphate to Pyruvic acid d. Fructose Diphosphate to Glyceraldehyde Phosphate Oxidation step in glycolysis Select one: a. All the reactions b. Fructose Diphosphate to Glyceraldehyde Phosphate c. Glyceraldehyde Phosphate to Pyruvic acid d. Glucose to Fructose Diphosphate
All mechanisms of glucose metabolism begin with glycolysis and produce 2 pyruvates, 2 ATP and 2 NADH. Make a table comparing aerobic and anaerobic metabolism (after glycolysis) to describe how pyruvate is metabolized. Columns: Cell Respiration, Lactic Acid, Alcohol Fermentation Rows: Where (in the cell) does pyruvate go? What happens to pyruvate (explain in step by step detail)? Is pyruvate oxidized or reduced? What energy-storing molecules are made? What energy-storing molecules are used? What byproducts str produced (CO2 or H2O)?...
The first reaction in glycolysis is the phosphorylation of glucose:Pi+glucose⟶glucose−6−phosphate+H2OThis is a thermodynamically unfavorable process, with ΔG∘′=+13.8kJ/mol.Part AIn a liver cell at 37 ∘C the concentrations of both phosphate and glucose are normally maintained at about 5 mM each. =>theequilibrium concentration of glucose-6-phosphate = 1.2*10^-7 MPart BThis very low concentration of the desired product would be unfavorable for glycolysis. In fact, the reaction is coupled to ATP hydrolysis to give the overall reactionATP+glucose⟶glucose−6−phosphate+ADP+H+ΔG∘′ for the coupled reaction is -18.4 kJ/mol
42. The end result of glycolysis includes the a creation of 38 molecules of ATP. b. reduction of eight molecules of NAD to NADH. c.formation of two molecules of pyruvate. d. conversion of one molecule of glucose to lactic acid. e. None of the above 43. During the energy investing portion of glycolysis, the phosphates from ATP molecules are a. added to the first and sixth carbons of glucose. b. added to the second and fourth carbons of glucose. c....
Glycolysis is the first part of glucose' catabolic journey to complete oxidation. It is not until pyruvate, the end product of glycolysis, is oxidized by the pyruvate dehydrogenase complex, that the first glucose carbons are oxidized to CO2. The overall PDH reaction is shown below. Identify the glucose carbon atoms that are removed in this reaction and the glucose atoms that are destined to become part of acetyl CoA. 0 0 C3, C4 →Ć Pyruvate dehydrogenase + NAD+ + COASH...
(15)2. For a solution containing 115 mg/L of glycine [CH2(NH2)COOH] whose oxidation can be represented as 2 CH2(NH2)COOH 3 O24 CO2 2 H20 + 2 NH3 NH3 2 O2NO3 HH20 Find the ultimate (theoretical) CBOD (a) Find the ultimate NBOD (b) (c) Find the TBOD
27.4 Anaerobic bacteria use the glycolysis reaction, CAH,Os(aq) + 2 CH2CH(OH)COOH(aq), as a source of en- ergy. In the reaction, glucose, CoH12O6, is first converted to pyruvic acid, CH3COCOOH, which is then converted to lactic acid, CH2CH(OH)COOH, through the action of the enzyme lactate dehydrogenase. Use bond enthalpies and mean bond enthalpies to estimate (a) the enthalpy of formation and (b) the enthalpy of combustion of glucose. Ignore the contributions of enthalpies of fusion and vaporization.